Abraham George

*** * ** ***** *****, Tempe, Arizona -85282

Email: ac1oyx@r.postjobfree.com

Cell: 602-***-****

Professional Profile

• Mechanical Engineer with a focus on product design, development and management

• Highly skilled in: 3D Modeling, Finite Element Analysis (FEA), Failure Mode Effect Analysis

(FMEA), GD&T in design engineering, heat transfer.

• Strong background in: CAD modeling, Analysis and Simulation Software; and Electro-mechanical systems, 3D printing prototypes

Skills

• CAD modeling software: AutoCAD, SolidWorks, CREO/ProE, CATIA V5, EES, Siemens NX.

• Analysis Software: ANSYS, COMSOL.

• Statistics Software: JMP, Minitab.

• Programming languages: C, C++, FORTRAN, MATLAB.

• Engineering Project Management: MS Project.

• Production Support: Engineering Drawings, Bill of Materials. Education

Master of Science, Mechanical Engineering

2015

Arizona State University

Tempe, AZ

Bachelor of Engineering, Mechanical Engineering

2012

Mahatma Gandhi University

Kerala, India

Experience

Assistant Research Technologist – Arizona State University May 2015 – Present

Responsibilities:

• Create 3D models of piece parts and assemblies, drawings for medical devices based on (DfM), (DfA).

• Optimization of structure based on design of experiments (DOE).

• Assisting in the design and development of bio-mechanical systems.

• Create project timelines, schedule manufacturing operations.

• 3D printing prototypes using printers – MakerBot

• Exposure to manufacturing operations, part validations and quality control

• Create bill of materials, estimate project budgets.

• Design and development of electro-mechanical systems: linear actuation mechanisms, steering and drive mechanisms.

• Design by running tests and functional prototype testing on engineering systems. o or create a test bench for that test

o FMEA of designs throughout the product life cycle Consulting Engineer at Juggernaut Design – Phoenix, Arizona August 2015 - September 2015

Responsibilities:

• Worked with design teams to optimize the time required for different operations.

• 1 month time given to complete operations. Completed the work in 2 weeks and 3 days.

• Conducted time studies for different manufacturing operations process flows on-site.

• Analysis of different manufacturing operations like injection molding, machining, stitching etc. and operators for time optimization and suggesting possible measure to save time. University Solution Center Assistant at Arizona State University June 2014 – May 2015

Responsibilities:

• Provided online, remote technical support to 70,000+ students and faculty.

• Provided information regarding ASU administrative and support services.

• Communicated effectively with ASU Help Desk staff and customers to resolve issues. Academic Projects

Design of Aerospace Structures

Spring 2014

Responsibilities:

• Designing a part of the fuselage to withstand a combination of loads(Torsional and Bending).

• Knowledge of aerospace materials and composite lay-up, manufacturing methods.

• Optimization of the Structure to deliver the best Strength to Weight Ratio.

• Selection of material based on best weight reduction.

• Designs based on SAEm MiL Standards.

Computational Fluid Dynamics (2D code solvers to fluid flow problems/equations) Fall - 2014

Responsibilities:

• Numerical modeling and analysis to determine steady state solution o of 2D lid driven cavity problem using Fortran 90.

• Validation of results by solving 2D lid driven cavity problem o using ANSYS-Fluent 14 and complete GCI analysis

• Heat transfer carried out fluid flow analysis in a mixing elbow o and a 2D flow analysis around an air foil using ANSYS-Fluent 14 Advanced CAE Simulation: Finite Element Analysis (Ansys 14.5) Spring - 2014

Responsibilities:

• Linear analysis of pressure vessels and welds using different elements o and validated with theoretical results

• Executed nonlinear buckling analysis of

o shafts, circular arcs, circular rings, narrow cantilevers and frames

• Modal analysis of flywheel, harmonic analysis of steel platform o and transient analysis of caster wheel hitting a curb

• FEA to find stresses acting on an external pad drum brake using different contact algorithms

• Performed nonlinear FEA

o on clamped circular sheets and on clamped domes to replicate NAFEMS results o for rate dependent materials: viscoelastic materials and creep analysis to predict creep life o on hyper elastic and rate independent materials to locate shear and volumetric locking o to predict fracture loci on billet during cold upsetting and to find plastic hinge on a switch

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